how do you solve this kind of problem? I never seem to have any idea on how to answer this. i even have no idea on how to make a punnet square on this problem. help me. onegai!

A normal visioned and bald woman whose father is bald and a mother who is red-green color blind marries a man who is nonbald but is red-green color blind.

a. What could be the probability that their children will be:
1. bald girls?
2. red-green color blind boys?
3. bald boys?
4. normal visioned girls?
5. nonbald and normal visioned girls and boys?
6. red-green color blind and bald boys and girls?
7. nonbald and red-green color blind boys and girls?
8. normal visioned and bald boys and girls?
b. Give the phenotypic ratio and genotypic ratio.
c. What could be the probability that they're children will be both normal to girls (in percent)?

please help me! i really have no idea on how to solve this!

sorry if i posted it here! but ireally need help with this problem and i noticed that a lot of people view general discussion than genetics(as far as i think it is) but do do do please help me!

A normal visioned and bald woman whose father is bald and a mother who is red-green color blind marries a man who is nonbald but is red-green color blind.

the bald woman i think has something harmone gene defect [ may be a mutation or a passed allele] along with the presence of baldness gene. i think now you can punnete it square if you know which is the dominant one or any other realtion in genes... you first have to have pedegree analysis done. The you get it thru punnetes.

MrMistery wrote:The gene for baldness is recessive X linked, so that is why usually only men get it...

I thought it was because it was sex influenced, not sex linked, that men were more likely to have pattern baldness.... a heterozygous male for pattern baldness is affected, whereas a heterozygous female for pattern baldness is not. If that's the case, then you'd have a dihybrid cross with the women homozygous recessive for baldness and heterozygous for colorblindness... the male would be homozygous dominant for baldness and hemizygous recessive for colorblindness. I'm just in my first genetics class so this may be completely wrong.... it's also almost 2am and I'm quite tired... but I tried.

I'm not really sure about the result but I guess it is on the choices that you have made. But there are some cases that the child will not get bald or even get color blind even if his or her parents have that kind of characters. If it is really on their blood line either both parents then you should expect one or both characters will be inherited.